Hexane. Both methanol and hexanol are polar and can interact with acetone via di
ID: 815146 • Letter: H
Question
Hexane. Both methanol and hexanol are polar and can interact with acetone via dipole-dipole interactions as acetone is also polar. Methanol has a much shorter hydrocarbon chain than hexanol, and its molecules have a greater dipole moment, which might cause methanol to interact more strongly with itself than with acetone and hence cause it to be less soluble in acetone. Methanol. Both methanol and hexanol have an -- OH group that can hydrogen bond with the oxygen on acetone. Hexanol has a much longer hydrocarbon chain than methanol, and its molecules would interact via dispersion forces, which might cause hexanol to interact more strongly with itself than with acetone, and hence cause it to be less soluble in acetone. Methanol. Both methanol and hexanel are polar and can interact with acetone via dipole-dipole interactions as acetone is also polar Hexanol has a much longer hydrocarbon chain than methanol, and its molecules are more polarizable and have a greater dipole moment. which might cause hexanol to interact more strongly with itself than with acetone and hence cause it to be less soluble in acetone. Hexanol. Both methanol and hexanol have an -OH group that can hydrogen bond with the oxygen on acetone. Hexanol has a much longer hydrocarbon chain than methanol, and its molecules would interact via relatively strong dispersion forces, which might cause hexanol to interact more strongly with acetone than with itself, thus increasing solubility.Explanation / Answer
option B
longer the hdyrocarbon chain==> lesser would be solubilisng effect since alkyl chain poses London dispersion forces which are weak forces of attraction and they do not allow alkyl part to be soluble in acetone